Yttrium (revised)

YTTRIUM (REVISED)

Note: This article, originally published in 1998, was updated in 2006 for the eBook edition.

Overview

Yttrium is one of four elements named for the same small town of Ytterby, Sweden. The other three elements are erbium, terbium, and ytterbium. The element was discovered in 1794 by Finnish chemist Johan Gadolin (1760-1852). The discovery of yttrium marked the beginning of one hundred years of complicated chemical research that resulted in the discovery often new elements.

Yttrium is a transition metal. Transition metals are those elements in Groups 3 through 12 of the periodic table. The periodic table is a chart that shows how chemical elements are related to each other. The element above yttrium in the periodic table is scandium. The space below yttrium is taken up by a group of elements known as the rare earth elements. Scandium, yttrium, and the rare earth elements are often found together in nature.

SYMBOL
Y

ATOMIC NUMBER
39

ATOMIC MASSY
88.9059

FAMILY
Group 3 (IIIB)
Transition metal

PRONUNCIATION
I-tree-um

Yttrium is often used to make alloys with other metals. An alloy is made by melting and mixing two or more metals. The mixture has properties different from those of the individual metals. Two of yttrium's most interesting applications are in lasers and superconducting materials.

A laser is a device for producing very bright light of a single color. One of the most popular lasers is made of yttrium, aluminum, and garnet. Garnet is a gem-like material with a sand-like composition. Superconducting materials are substances with no resistance to the flow of an electric current. An electric current that begins to flow through them never stops. Superconducting materials may have many very important applications in the future.

Discovery and naming

In 1787, a lieutenant in the Swedish army named Carl Axel Arrhenius (1757-1824) found an interesting new stone near Ytterby. He gave the stone to Gadolin for analysis. At the time, Gadolin was professor of chemistry at the University of Abo in Finland. Gadolin decided that Arrhenius' rock contained a new element. That element was later given the name yttrium.

For about fifty years, nothing new was learned about yttrium. Then Swedish chemist Carl Gustav Mosander (1797-1858) discovered that yttrium was not a single pure substance. Instead, it was a mixture of three new substances. In addition to Gadolin's yttrium, Mosander found two more elements. He called these elements terbium and erbium.

From that point on, the story of yttrium continued to get more and more complicated. As it turned out, neither terbium nor erbium was a pure element. Both new "elements" also contained other new elements. And these new "elements," in turn, contained other new elements. In the end, the heavy black mineral found by Arrhenius resulted in the discovery of ten new elements! (See the individual entries for the nine other elements: dysprosium, erbium, gadolinium, holmium, lutetium, scandium, terbium, thulium, and ytterbium. )

Physical properties

Yttrium has a bright, silvery surface, like most other metals. It is also prepared as a dark gray to black powder with little shine. Yttrium has a melting point of 1,509°C (2,748°F) and a boiling point of about 3,000°C (5,400 F). Its density is 4.47 grams per cubic centimeter.

Chemical properties

The chemical properties of yttrium are similar to those of the rare earth elements. It reacts with cold water slowly, and with
hot water very rapidly. It dissolves in both acids and alkalis. An alkali is the chemical opposite of an acid. Sodium hydroxide ("household lye") and limewater are common alkalis.

Solid yttrium metal does not react with oxygen in the air. However, it reacts very rapidly when in its powdered form. Yttrium powder may react explosively with oxygen at high temperatures.

Occurrence in nature

Yttrium is a moderately abundant element in the Earth's crust. Its abundance is estimated to be about 28 to 70 parts per million. That makes yttrium about as abundant as cobalt, copper, and zinc. As with other elements, the abundance of yttrium is quite different in other parts of the solar system. Rocks brought back from the Moon, for example, have a high yttrium content.

Rocks brought back from the Moon have a high yttrium content.

Yttrium occurs in most rare earth minerals. A rare earth mineral contains one or more—usually many—of the rare earth elements. The most important rare earth mineral is monazite. Monazite occurs in many places in the world, especially Brazil,
Australia, Canada, and parts of the United States. Typically, monazite contains about 3 percent yttrium.

Making machines work more efficiently

O ne of the important new uses for yttrium is in superconductors. Superconductors were first discovered by Dutch physicist Heike Kamerlingh-Onnes (1853-1926) in 1911. Kamerlingh-Onnes found that certain metals cooled to nearly absolute zero lost all resistance to an electric current. Absolute zero is the coldest temperature possible, about -273°C. Once an electric current got started in these very cold metals, it could keep going forever. These metals were called superconductors.

Research on superconductors did not advance very much for seventy years. It is very difficult to produce temperatures close to absolute zero, and it is difficult to work with materials at these temperatures.

Then, in 1986, a startling announcement was made. Two scientists at the IBM Research Laboratories in Zurich, Switzerland, had made a material that becomes superconducting at 35 degrees above absolute zero. That temperature, -238°C, is still very cold, but it is much "warmer" than the temperature at which Kamerlingh-Onnes had worked.

An even bigger jump was announced only a year later. A team of researchers working under Ching-Wu "Paul" Chu (1941-) produced superconductors that worked at 90 to 100 degrees above absolute zero. These temperatures are also still very cold, but they broke an important barrier. Those temperatures are close to the temperature of liquid nitrogen. Scientists have known how to make and work with liquid nitrogen for several hundred years. It had now become easy to work with superconducting materials.

These "high-temperature" superconducting materials are very interesting. In the first place, they are not metals. They are ceramics. A ceramic is a clay-like material. It often consists of sand, clay, brick, glass or a stone-like material.

In the second place, the composition of these materials is difficult to determine. They usually contain barium, copper, lanthanum, yttrium, and oxygen. They often contain other elements. But they are not simple compounds, like copper oxide (CuO) or yttrium oxide (Y203). Instead, they are complex mixtures of the elements.

Superconductors may be very important materials in the future. Electrical machinery usually does not operate very efficiently. The electric current has to work hard to overcome resistance in wires and other parts of the machinery. A lot of the electrical energy is lost because of this resistance. The electrical energy turns into heat.

In a machine made of superconducting materials, the electrical current would meet no resistance at all. All of the electrical energy could be used productively. It could make the machine operate, rather than being lost as heat.

Isotopes

There is only one naturally occurring isotope of yttrium, yttrium-89. Isotopes are two or more forms of an element. Isotopes
differ from each other according to their mass number. The number written to the right of the element's name is the mass number. The mass number represents the number of protons plus neutrons in the nucleus of an atom of the element. The number of protons determines the element, but the number of neutrons in the atom of any one element can vary. Each variation is an isotope.

About a dozen radioactive isotopes of yttrium are known also. A radioactive isotope is one that breaks apart and gives off some form of radiation. Radioactive isotopes are produced when very small particles are fired at atoms. These particles stick in the atoms and make them radioactive.

Yttrium phosphors have long been used in color television sets and in computer monitors.

None of the radioactive isotopes of yttrium has any important commercial use. However, yttrium-90 is now being tested as a treatment for cancer. Radiation given off by the isotope kills cancer cells. Researchers believe that yttrium-90 may find wider use in the future for treating cancer. One advantage of using this isotope is that is easy to obtain. It is produced when another radioactive isotope (strontium-90) breaks down. Strontium-90 is a by-product formed in nuclear power plants.

Extraction

Yttrium is usually bought and sold in the form of yttrium oxide (Y2O3). However, the pure metal can be obtained by combining another compound of yttrium, yttrium fluoride (YF3), with calcium metal at high temperatures:

Uses

Traditionally, yttrium has had many of the same uses as the rare earth elements. For example, it has been used in phosphors. A phosphor is a material that shines when struck by electrons. The color of the phosphor depends on the elements of which it is made. Yttrium phosphors have long been used in color television sets and in computer monitors. They have also been used in specialized fluorescent lights. In 1996, about two-thirds of all the yttrium consumed was used for these purposes.

Yttrium alloys have some special uses as well. These alloys tend to be hard, resistant to wear, and resistant to corrosion (rusting). They are used in cutting tools, seals, bearings, and jet engine coatings. Slightly less than a third of all yttrium used in 1996 went to applications like these.

One of the areas in which yttrium is becoming more important is in the manufacture of lasers. Lasers are devices for producing very intense beams of light of a single color. These beams are used for precision metal cutting and surgery. There is some hope that lasers may someday replace the dental drill.

One of the most widely used lasers today is the yttrium-aluminum-garnet (YAG) Laser. YAG Lasers often contain other elements. These elements change the kind of light produced by the laser in one way or another. The Laser is said to be doped with another element if it contains a small amount of that element. An example of this kind of laser is one doped with neodymium. The neodymium-doped YAG (Nd:YAG) laser has been used to make Long distance measurements.

There is some hope that lasers may someday replace the dental drill

In this kind of laser, a beam is fired at a far-away object. The time it takes for the beam to be reflected is then measured. The time is used to calculate the distance to the distant object. One application of this principle is used by space probes. For example, on February 17, 1996, the National Aeronautics
and Space Administration (NASA) launched a spacecraft to observe the asteroid Eros. The back side of the asteroid will be measured with a Nd:YAG laser. Beams from the laser will be used to map surface features on the asteroid.

Compounds

The only yttrium compound of commercial interest is yttrium oxide (Y2O3). Yttrium oxide is used to make phosphors for color television sets and in crystals used in microwave detection instruments.

The back side of the asteroid Eros will be measured with a neodymium-doped yttrium-aluminum-garnet (Nd:Yag) laser.

Health effects

Yttrium has been found to be toxic to laboratory rats in high doses. However, there is little information about its effects on humans. In such cases, an element is usually treated as if it were dangerous.

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Yttrium

Yttrium

Carl Axel Arrhenius found in 1787 in a quarry near Ytterby, Sweden, a new mineral, which he named ytterbite, and made a summary analysis of it. Further, the Finnish chemist Johan Gadolin isolated in 1794 from this mineral an impure new oxide that he named ytterbia. Friedrich Wöhler partly purified the metal yttrium in 1828, whereas Carl Gustaf Mosander separated the oxides of yttrium, erbium and terbium in 1843 from a mixture of yttria oxide.

Yttrium is trivalent and has an effective ionic radius of 0.900 angstroms. At room temperature the metal structure is hexagonal, close packed, and diamagnetic . The metal yttrium has a silver-metallic luster and is relatively stable in air.

One stable isotope89Y and thirty-seven unstable isotopes and isomers have been characterized. All four halides of yttrium are known and are commonly prepared by dissolving the oxide in corresponding acids.

Main yttrium minerals are bastnäsite, kainosite, xerosime, and zinnwaldite. It is estimated that the upper continental crust contains yttrium at a concentration of 20.7 milligrams (0.00073 ounces) per kilogram and seawater contains a total amount of 1,569,000,000 kilograms (1,730,000 tons).

The Porifera Melythoea and the tree Carya sp. are considered accumulator organisms. Yttrium accumulates in bone and teeth, a phenomenon that is explained by its ability to bind to phosphorus-containing compounds, and to polysaccharides. Nucleic acids have high affinities for yttrium, which binds to phosphate at a ratio of 1:3. Yttrium has stimulatory effects on some fungi and other lower organisms. It is believed that yttrium binds to the surface of cells, without penetrating the cell membrane.

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yttrium

The Columbia Encyclopedia, 6th ed.

Copyright The Columbia University Press

yttrium (Ĭt´rēəm) [for Ytterby, a town in Sweden], metallic chemical element; symbol Y; at. no. 39; at. wt. 88.90585; m.p. about 1,522°C; b.p. 3,338°C; sp. gr. about 4.45; valence +3. Yttrium is a highly crystalline iron-gray metal. Usually considered a rare-earth metal, it is found above lanthanum in Group 3 of the periodic table. Yttrium is fairly stable in air but oxidizes readily when heated. It reacts with water and mineral acids. The largest use of the element is as its oxide yttria, Y2O3, which is used in making red phosphors for color television picture tubes; it also has other uses. Yttrium metal has found some use alloyed in small amounts with other metals. Yttrium is not found uncombined in nature, but occurs in many minerals, e.g., gadolinite, euxenite, and xenotime. It is recovered commercially from monazite and bastnasite. In 1794, Johan Gadolin isolated impure yttria from the mineral gadolinite. In 1843, C. G. Mosander isolated pure yttria as well as two impure fractions that he called erbia and terbia. The metal was first isolated in 1828 by Friedrich Wöhler.

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yttrium

yttrium (symbol Y) Silver-grey, metallic element in group III of the periodic table. First isolated in 1828 by German chemist Friedrich Wöhler, it is found with lanthanide elements (rare-earth metals) in monazite sand, bastnasite, and gadolinite. It resembles the lanthanides in its chemistry. Yttrium was found in lunar rock samples collected by the Apollo 11 space mission. Its compounds are used in phosphors and communications devices, such as colour television picture tubes and superconducting ceramics. Properties: at.no. 39; r.a.m. 88.9059; r.d. 4.47; m.p. 1523°C (2773°F); b.p. 3337°C (6039°F); most common isotope Y89 (100%).

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Yttrium

The Gale Encyclopedia of Science
COPYRIGHT 2008 The Gale Group, Inc.

Yttrium

Yttrium—an element used in various compounds within microwave communications devices—is the second element in Group 3 of the periodic table, one of the transition metals. Yttrium is not itself a rare earth element; however, its history is closely tied to that of the rare earths, and its chemical properties are similar to those of the members of that family. It also occurs in close association in nature with the rare earths.

Yttrium was the first new element to be identified in the complex mineral called ytteriteytterite (now known as gadolinitegadolinite), discovered in 1787. Finnish chemist Johan Gadolin (1760–1852) analyzed the dense black mineral and realized that it contained a new substance. That substance was further analyzed by Swedish chemist and mineralogist Anders Gustaf Ekeberg (1767–1813) in 1799 and given the name of yttriayttria. Over the next 12 years, yttria was shown to contain nine other elements in addition to yttrium itself. An impure form of the element was produced by Friedrich Wöhler in 1828. Yttrium was then isolated by Swedish chemist Carl Gustav Mosander (1797– 1858) in 1843, who named the element in honor of the town (Ytterby, Sweden) near which the rock was found.

Yttrium is a moderately active element that reacts slowly with cold water and more rapidly with hot water. It dissolves in both acids and alkalis. Yttrium does not react with oxygen at room temperature, but does react with oxygen at higher temperatures. As a powder, it may react explosively with hot oxygen. Yttrium metal turnings may ignite spontaneously in air.

Yttrium is a moderately abundant element in Earth’s crust with an abundance estimated at about 28 to 70 parts per million; that is, about 5.3 x 10-4 ounces per pound (3.3 x 101 milligrams per kilograms). Its estimated oceanic abundance is 1.7 x 10-9 ounces per gallon (1.3 x 10-5 milligrams per liter). As with many other elements, the abundance of yttrium varies in other parts of the solar system. Rocks brought back from the Moon, for example, tend to have a higher concentration of yttrium than those in Earth’s crust. The primary ore of yttrium is monazite, which occurs in beach sand in Brazil, India, Florida (United States), and other parts of the world.

Yttrium is used in alloys to decrease grain size or add strength. Its greatest use, in the form of yttrium oxide, is in television phosphors. About two-thirds of all yttrium produced goes to the manufacture of phosphors used in televisions and computer monitors made with picture tubes, microwave filters in microwave communications equipment, and specialized fluorescent lights. An increasingly important use of the element is in the production of special lasers made of yttrium, aluminum, and synthetic garnet, the YAG laser. One use of the YAG laser is in making very precise measurements at long distances. As an example, the National Aeronautics and Space Administration (NASA) used a YAG laser to measure the dimensions of the asteroid Eros (asteroid 433) and to map its surface features.

When doped with erbium, the phosphors produce a red glow. Synthetic garnets containing yttrium are very hard and have been used as gemstones that are similar to diamonds. The garnets are also used in microwave filters and in lasers. Compounds containing yttrium have been shown to become superconducting at relatively high temperatures. Such uses could conceivably become the most important application of the element in the future.

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Yttrium

The Gale Encyclopedia of Science
COPYRIGHT 2008 The Gale Group, Inc.

Yttrium

Yttrium is not itself a rare earth element; however, its history is closely tied to that of the rare earths, and its chemical properties are similar to those of the members of that family. It also occurs in close association in nature with the rare earths.

Yttrium was the first new element to be identified in the complex mineral called ytteriteytterite (now known as gadolinitegadolinite), discovered in 1787. Johan Gadolin analyzed the dense black mineral and realized that it contained a new substance. That substance was further analyzed by the Swedish chemist Anders Gustav Ekeberg in 1799 and given the name of yttriayttria. Over the next 12 years, yttria was shown to contain nine other elements in addition to yttrium itself. An impure form of the element was produced by Friedrich Wöhler in 1828.

Yttrium's atomic number is 39, its atomic weight , 88.9059, and its chemical symbol, Y. The element is a silvery metal with a melting point of 2,771.6°F (1,522°C) and a boiling point of about 6,053°F (3,345°C). It is a relatively active metal that decomposes cold water slowly and boiling water rapidly.

Yttrium metal turnings may ignite spontaneously in air.

Yttrium is used in alloys to decrease grain size or add strength. Its greatest use, in the form of yttrium oxide, is in television phosphors. When doped with erbium, the phosphors produce a red glow. Synthetic garnets containing yttrium are very hard and have been used as gemstones that are similar to diamonds. The garnets are also used in microwave filters and in lasers. Compounds containing yttrium have been shown to become superconducting at relatively high temperatures. Such uses could conceivably become the most important application of the element in the future.

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